Marcobisky
  • Home
  • CV
  • Blog

On this page

  • EDUCATION
  • ENGAGED PROJECTS
  • ACADEMIC RECORD
  • RELEVANT SKILLS
  • OTHERS
    • Awards
    • Interests

Other Formats

  • PDF

EDUCATION

  • University of Electronic Science and Technology of China (UESTC) (Sept 2022 — Present)

    • Student, School of Communication Engineering.
  • University of Glasgow, Scotland, UK (Sept 2022 — present)

    • Student, School of Electronic and Computer Engineering.

ENGAGED PROJECTS

Movable Antenna (MA) for Anti-jamming (Just start)

  • Main tools: matlab.
  • A heuristic investigation into Anti-jamming through stochastic antenna movement.
  • Conducted under the supervision of Prof. Weidong Mei at UESTC.

Computer Vision (CV) for Quadrotor Aircraft (Just start)

  • Main tools: matlab, C/C++, python, verilog.
  • Automatic quadrotor aircraft for objection detection, robotic arm manipulation, and closed-loop flight control.
  • 6-people group.

RV32I CPU Core for Education
(Jan 2025 — Present)

GPIO simulation in Digital
  • Main tools: verilog, VHDL, Digital, Kicad, iCESuger FPGA.
  • Simulate an entire RISC-V 32 bit CPU in verilog and Digital Software.
  • Support basic peripherals such as GPIOs, IIC, UART, VGA, etc.
  • Simple boot ROM in assembly, minimal interrupt service for running a Linux kernel.

AME Source Coding (Oct 2024 — Nov 2024)

Proposed AME coding scheme
  • Main tools: python, matlab.
  • Final project of Information Theory Course.
  • Second-order Markov Adapative Approximation (AME) to source-coding the Game of Thrones.
  • Performance evaluation of Huffman and Fano coding.

CNN for Mbed (Feb 2024 — May 2024)

Proposed CNN in L432KC MCU
  • Main tools: python, C++.
  • Convolutional Neural Network (CNN) integration into an MCU.
  • Smart fall detection, body temperature monitoring and real-time data visualization for patients.

A Study of Generalized Fields and Extension to Higher Dimensions1 (Oct 2023 — Feb 2024)

1 I submitted this paper to the American Journal of Physics, but it was declined for publication.

Fields in high dimension can be reduced
  • A theoretical study of generalized natural fields and behaviours in higher dimensions.
  • Largely motivated by my tutor Mr. Yidong Liu and my friends and completed by myself.

Human Voice Recognition Smart Car (Sept 2023 — Dec 2023)

Voice-controlled car
  • Main tools: C++, STM32F103C8T6 MCU, etc.
  • Leader of a 4-people team.
  • English words recognition for car movement controlling.
  • Basic operations: Moving forwards and backwards, turning or sliding left and right, etc.

Auto Door Opener for Dormitory (Sept 2023 — Oct 2023)

Door opener tested on breadboard
  • Main tools: C++, Nucleo L432KC MCU, Mbed library, OLED screen, etc.
  • The final project of the Microelectronic System course.
  • Opening the dormitory door by password input.
  • Basic functions: Setting up password manually, automatically lock for repeated wrong passwords, OLED message displaying, etc.

“XinTong Cup” Electronic Design Competition: Electronic Keyboard Music Player (Sept 2022 — Oct 2022)

  • Main tools: Keil C51, STC89C52RC MCU, etc.
  • Leader of 3-people team.
  • A simplified 8-key music player using register-based development on a 8-bit MCU by ST company.
  • Functionality: Single note playing, chord playing, recording ability, replay and rewind capability, etc.

ACADEMIC RECORD2

Detailed scores of core courses (GPA: 3.88 out of 4.00)
Year Subject Score (Full mark: 100)
Year 1 Calculus I/II
Linear Algebra
C Programming
Physics I
91/92
84
95
88
Year 2 Physics II
Signal and Systems
Probability and Statistics
Microelectronic Systems
Embedded Processors
Circuit Analysis and Design
Computer Network
Academic English
96
91
92
92
95
95
94
89
Year 3 Information Theory
Principles of Communication
Digital Circuit Design
Machine Learning
Stochastic Signal Analysis
91
95
86
86
82

2 I’m relatively confident in my understanding of the Boldface subjects. Download my scores for all subjects here.

RELEVANT SKILLS

  • IT Skills: Latex, (Quarto) Markdown, Typst, Manim3, Github4, Microsoft Office.
  • Computer Programming: C/C++, Matlab, Python.
  • Embedded System Programming: RISCV assembly, STM89C5x (Standard lib), Keil C51.
  • Math: Self learned (Abstract Algebra (Harvard E-222)), Point-set Topology, Measure Theory, Complex Analysis (MIT 18.04), Functional Analysis, Elementary Differential Geometry, Lie Groups and Lie Algebras (still learning). I didn’t focus on all epsilons and deltas, but their motivations and application potentials.
  • Team Work: Zoom meeting, Notion team, Microsoft team.
  • Language: No problem in understanding English lectures, GRE score 317, native Chinese.

3 See this video in which I use manim to explain the relation between the adjoint and dual operator.

4 My Github.

OTHERS

Awards

  • First Prize in the 7th National College Student Art Exhibition and Performance: Symphony No. 4 in D minor, Op. 120, 4th movement, by Robert Schumann. (In violin section)

  • Top Academic Scholarship of UESTC: First-class Scholarship for the past two years.

  • China National Scholarship, 2024: Prestigious national award granted for academic excellence, leadership, and overall achievement.

Interests

  • Classical Music Enthusiast🎻: Violin player in UESTC symphony orchestra, votary of legendary composer Gustav Mahler and Johann Sebastian Bach.
  • Badminton Lover🏸: Sports always refreshes me at any time.
  • Learning Everything🔍: I believe everything is learnable by First Principle Thinking and curiosity.
  • Volunteer Work🤝: Enjoy helping others. Over 15 hours of volunteering.

© Copyright 2024 Marcobisky.